Altered stress system reactivity after pediatric injury: Relation with post-traumatic stress symptoms

Trajectory of Post-Traumatic Stress During the First Year after Pediatric Traumatic Brain or Orthopedic Injury

Up to 50% of children sustaining physical injury develop post-traumatic stress symptoms (PTSS). Most studies of PTSS have not included patients with traumatic brain injury (TBI); consequently, the influence of injury type and severity on the longitudinal course of PTSS is unclear. To address this gap, we completed a longitudinal prospective cohort study examining the trajectory of self-reported PTSS severity during the first year after TBI or orthopedic injury (OI). Within a biopsychosocial framework, we examined PTSS in relation to injury variables, demographic characteristics, and pre-injury child and family functioning. Patients ages 9-15 years with TBI or OI were recruited from two level I pediatric trauma centers. Online surveys were completed as soon as possible following injury (mdn = 8 days). Caregivers rated pre-injury family, sociodemographic, and child characteristics. Follow-up surveys assessing children's self-reported PTSS using the Children's PTSD Symptom Scale (CPSS) were scheduled 3,6, and 12 months after injury. English-speaking families completed surveys either online or by telephone interview; Spanish-speaking families were interviewed. Baseline surveys were completed by 303 families; 265 (87%) completed at least 1 follow-up and comprised the cohort. General linear mixed models examined the influence of injury group and severity, age, sex, and time of assessment on CPSS scores. Pre-injury estimates of child and family functioning were examined as predictors in supplemental models. Participants (72% boys, mean [SD] age 12.7 [1.9] years) included 204 with TBI (76 mild, 82 complicated-mild/moderate, 46 severe) and 61 with OI. Relative to OI, patients with TBI had significantly elevated mean CPSS scores at 3 (3.7 points, 95% confidence intervals [CI]: 1.1, 6.3); 6 (3.2, 95% CI: 0.7, 5.7) and 12 months (2.3, 95% CI: 0.1, 4.5). The primary model indicated that TBI severity had a nonlinear relation with CPSS. Mild TBI (mTBI) had the highest mean scores; with significant differences relative to OI at 3 (4.6 points, 95% CI: 1.6, 7.6); 6 (5.7, 95% CI: 2.7, 8.6) and 12 months (3.2, 95% CI: 0.6, 5.8). This model also revealed that adolescent females had higher CPSS scores than children or adolescent males. Differences relative to younger males at 6 and 12 months were 4.9 (95% CI: 1.6, 8.3) and 5.0 points (95% CI: 2.1, 8.0). In supplemental models, higher symptom burden was associated with poorer baseline family functioning and with higher levels of children's pre-injury anxiety, affective problems, and conduct problems. PTSS persisted for a significant minority of patients with TBI across the first year of recovery, particularly those with mTBI. Screening should emphasize risk factors to target patients with the greatest need for trauma-focused intervention. Cost-effective, scalable, evidence-based trauma-focused interventions are essential to meet American College of Surgeons standards to provide psychological screening and treatment to children sustaining PTSS.

Mental and physical health disorders following paediatric traumatic injury: a population-based longitudinal study in Manitoba, Canada

IMPORTANCE

Paediatric traumatic injury (PTI) is a leading cause of hospitalisation among children. Little is known about subsequent mental and physical health disorders while accounting for pre-injury health.

OBJECTIVE

To compare pre-injury and post-injury mental and physical disorders in survivors of PTI with an uninjured matched cohort from the general population. This study hypothesised injured youth will have increased rates of mental and physical disorders relative to matched uninjured youth in the post-injury period.

DESIGN

Retrospective longitudinal cohort study using linked administrative health data to examine paediatric patients hospitalised for injury between 1 January 2004 and 31 December 2016, measured 2 years pre-injury and 2 years post-injury.

SETTING

Population-based study in Manitoba, Canada.

PARTICIPANTS

Youth<18 years old who survived to discharge after an injury requiring hospitalisation in the study period (n=9551) were matched 1:5 (age, sex and region) to youth from the general uninjured population (n=47 755).

EXPOSURES

PTI that required hospitalisation.

MAIN OUTCOMES AND MEASURES

Mental disorders (anxiety, depression and substance use) and physical disorders (arthritis, cancer, diabetes, gastrointestinal, hypertension and total respiratory morbidity) were measured at physician visits and hospitalisations 2 years pre-injury and post-injury. Generalised estimating equations were used to estimate adjusted rate ratios (ARR).

RESULTS

This study examined 9551 in the injured cohort and 47 755 matches in the uninjured cohort. Injured individuals had increased ARRs for all mental disorders (p<0.0006) pre-injury (anxiety=1.30 (95% CI, 1.16 to 1.47); depression=2.00 (95% CI, 1.73 to 2.32); substance use=4.99 (95% CI, 3.08 to 5.20); any mental disorder=1.50 (95% CI, 1.37 to 1.66)) and post-injury (anxiety=1.66 (95% CI, 1.51 to 1.82); depression=2.87 (95% CI, 2.57 to 3.21); substance use=3.25 (95% CI, 2.64 to 3.99); any mental disorder=1.90 (95% CI, 1.76 to 2.04)). For physical disorders, injured individuals had increased ARRs (p<0.0006) pre-injury for arthritis (1.50 (95% CI, 1.39 to 1.60)), cancer (1.97 (95% CI, 1.35 to 2.88)), gastrointestinal (1.12 (95% CI, 1.06 to 1.18)) and any physical disorder (1.14 (95% CI, 1.11 to 1.18)). Post-injury, the injured had higher ARRs (p<0.0006) for arthritis (2.02 (95% CI, 1.91 to 2.15)), cancer (1.97 (95% CI, 1.35 to 2.88)), diabetes (1.76 (95% CI, 1.33 to 2.32)), gastrointestinal (1.19 (95% CI, 1.12 to 1.27)), hypertension (2.36 (95% CI, 1.83 to 3.06)) and any physical disorder (1.33 (95% CI, 1.29 to 1.37)). Comparing the pre-injury and post-injury periods, ARRs for injured showed a difference over time for all mental disorders except substance use and all physical disorders except gastrointestinal and total respiratory morbidity compared with matched uninjured. Greater injury severity was associated with two times greater ARR for developing any mental health disorder, and the injured had three times the ARR for dying by suicide (p<0.0006).

CONCLUSIONS AND RELEVANCE

Child survivors of traumatic injury had increased relative rates of mental and physical disorders compared with a matched uninjured cohort. These findings support targeted intervention strategies for this population at the time of hospitalisation.

Incidence and predictors of nonresponse to intranasal midazolam in children undergoing laceration repair

BACKGROUND/OBJECTIVE

Pediatric laceration repairs are common in the emergency department (ED) and often associated with significant procedural anxiety. Despite the increased use of intranasal midazolam (INM) prior to pediatric ED procedures, there is limited, real-world data on the effects of INM on anxiety. This study aimed to describe the proportion of children who were nonresponsive to INM (i.e., exhibited extreme anxiety) and identify factors associated with INM nonresponse.

METHODS

This cross-sectional study included a sample of 102 children (ages 2-10 years) who received 0.2 mg/kg INM prior to laceration repair in the ED. Procedural anxiety was assessed using the modified Yale Preoperative Anxiety Scale (mYPAS). Children exhibiting extreme procedural anxiety (mYPAS score ≥72.91) when procedure started were labeled as INM nonresponders. Bivariate and multivariable logistic regression analyses explored associations between child age, temperament, laceration location, time from INM administration, and likelihood of INM nonresponse.

RESULTS

In this sample, 45.1% of the children were classified as INM nonresponders, exhibiting extreme procedural anxiety. Bivariate analyses indicated that nonresponders were younger, had lower sociability temperament, longer delay between INM administration and the procedure, and were more likely to have extremity lacerations. In the logistic regression, younger age (odds ratio [OR] 0.79, p = 0.034), lower sociability temperament (OR 0.28, p = 0.002), and extremity lacerations (OR 8.04, p = 0.009) were significantly associated with likelihood of INM nonresponse.

CONCLUSIONS

Nearly half of the children in our sample exhibited extreme procedural anxiety despite receiving INM. The high incidence of nonresponse to INM has important clinical practice implications and suggests that 0.2 mg/kg INM alone may not be sufficient to manage all pediatric procedural anxiety in the ED. Findings highlight a need for further research examining multimodal strategies to manage procedural anxiety in the pediatric ED, particularly for younger children with low sociability temperament or extremity lacerations.

Just my luck: How children's causal attributions contribute to injury prevention

PURPOSE

Traumatic injury in children, particularly adolescents, is both frequently and costly. In this study, we directly examined children's causal attributions for the recent traumas and asked them to propose prevention strategies of their own. We predict that children who attribute their injuries to their own actions, rather than an external force such as luck, will be more likely to develop strategies to avoid trauma in the future.

METHODS

All children aged 10 -18 years who presented to a Level 1 pediatric trauma center at an urban children's hospital over a ten-month period were identified and presented with a series of structured interview questions. They were asked to describe the cause of their injuries, whether they believed them to be avoidable, and what strategies, if any, they thought might have prevented their trauma.

RESULTS

46 children with an average age of 13.4 years were surveyed and the responses of 44 children were analyzed. Most injuries resulted from sports (24) or motor vehicle accidents (14). The remaining injuries were due to burns (4) and falls (2). Twelve (27%) children believed that their own behavior was to blame for their injuries. 32 children ascribed their injuries to circumstances outside of their control with the majority (30, 94%) viewing themselves as "unlucky." Children who accepted fault for injury and children who thought their accident was avoidable were more likely to be able to formulate a strategy for preventing future injury. Children who thought their accident was avoidable were also more likely to accept fault for it.

CONCLUSION

Children surveyed denied their own culpability and preferred to attribute their injuries to bad luck. Moreover, children who believed themselves to be simply unlucky were less able than others to propose strategies that might prevent further injury.

Evidence of Differential Prediction of Anxiety and Depression by Diurnal Alpha-Amylase and Cortisol in Development

Research and theory suggest an important role of neuroendocrine function in emotional development, particularly under conditions of elevated stress. We provide empirical data to clarify associations between alpha-amylase (AA) and cortisol as well as test the differential linkages among AA, cortisol, and symptoms of anxiety, depression, and posttraumatic stress in children. Children recruited from a low-income elevated violence community (n = 100; mean age = 10, SD = 0.64; 79% Latino; 67% received free or reduced lunch) were assessed on diurnal levels of AA and cortisol along with assessments of anxiety, depression, and posttraumatic stress symptoms (PTSS). Elevated anxiety symptoms were associated with steeper linear slopes of AA with higher levels of AA in the morning but lower levels of AA in the evening. Depression was associated with differential cubic trajectories of AA when PTSSs were included in the model. Anxiety also predicted differential cubic diurnal trends in cortisol, such that greater anxiety symptoms were associated with relatively higher levels of cortisol in the evening. Again, depression symptoms when PTSS were included predicted diurnal cubic trends with elevated depression associated with lower awakening and midday cortisol that reversed to higher evening cortisol compared to youth with fewer self-reported depression symptoms.

Observational Behavioral Coding in the Pediatric Emergency Department: Development of the Emergency Department Child Behavior Coding System

BACKGROUND

Despite improvements over the past decade, children continue to experience significant pain and distress surrounding invasive procedures in the emergency department (ED). To assess the impact of newly developed interventions, we must create more reliable and valid behavioral assessment tools that have been validated for the unique settings of pediatric EDs.

OBJECTIVE

This study aimed to create and test the Emergency Department Child Behavior Coding System (ED-CBCS) for the assessment of child distress and nondistress behaviors surrounding pediatric ED procedures.

METHODS

Via an iterative process, a multidisciplinary expert panel developed the ED-CBCS, an advanced time-based behavioral coding measure. Inter-rater reliability and concurrent validity were examined using 38 videos of children aged from 2 to 12 years undergoing laceration procedures. Face, Legs, Activity, Cry, Consolability (FLACC) scale scores were used to examine concurrent validity.

RESULTS

The final ED-CBCS included 27 child distress and nondistress behaviors. Time-unit κ values from 0.64 to 0.98 and event alignment κ values from 0.62 to 1.00 indicated good to excellent inter-rater reliability for all but one of the individual codes. ED-CBCS distress (B = 1.26; p < 0.001) and nondistress behaviors (B = -0.69, p = 0.025) were independently significantly associated with FLACC scores, indicating concurrent validity.

CONCLUSIONS

We developed a psychometrically sound tool tailored for pediatric ED procedures. Future work could use this measure to better identify behavioral targets and test the effects of interventions to relieve pediatric ED pain and distress.

Hypothalamic-pituitary-adrenal and autonomic response to psychological stress in abstinent alcohol use disorder individuals with and without depressive symptomatology

BACKGROUND

Stress and depression have each been associated with relapse risk. In clinical practice, chronic alcohol use is often accompanied by poor emotional and self-regulatory processes. Tonic and phasic changes in stress responsivity impact an individual's relapse risk to alcohol. A further complicating factor is the pervasive coexistence of depressive symptoms in those with Alcohol Use Disorder (AUD), where the contribution of depressive symptomatology to these processes is not well understood. Individuals with AUD (AD) (21 with and 12 without sub-clinical depressive symptoms) and 37 social drinking controls (16 with and 21 without sub-clinical depressive symptoms) as part of a more extensive study (Fox et al., 2019). All participants were exposed to two 5-min personalized guided imagery conditions (stress and neutral) in a randomized and counterbalanced order across consecutive days. Alcohol craving, negative mood, Stroop performance, and plasma measures (cortisol, adrenocorticotrophic hormone, and salivary alpha-amylase) were collected before and after imagery exposure.

RESULTS

Elevations in autonomic response (heart rate) to imagery (stress and neutral) were observed as a function of drinking (in both depressed and non-depressed individuals with alcohol use disorder compared with depressed and non-depressed social drinkers). Conversely, suppressed cortisol following stress was observed as a function of depressive symptomatology across both drinking groups. Individuals with comorbid AD and depressive symptoms demonstrated attenuated Adrenocorticotropic Hormone and poor Stroop performance compared with the other groups, indicating an interactive effect between drinking and depression on pituitary and inhibitory systems.

CONCLUSION

Sub-clinical depressive pathophysiology may be distinct from drinking severity and may alter relapse-related stress adaptations during protracted abstinence from alcohol.

Is Pediatric Intensive Care Trauma-Informed? A Review of Principles and Evidence

Pediatric critical illness and injury, along with the experience of recovering from critical illness are among the most potentially traumatic experiences for children and their families. Additionally, children often come to the Pediatric Intensive Care Unit (PICU) with pre-existing trauma that may sensitize them to PICU-related distress. Trauma-informed care (TIC) in the PICU, while under-examined, has the potential to enhance quality of care, mitigate trauma-related symptoms, encourage positive coping, and provide anticipatory guidance for the recovery process. This narrative review paper first describes the need for TIC in the PICU and then introduces the principles of TIC as outlined by the American Academy of Pediatrics: awareness, readiness, detection and assessment, management, and integration. Current clinical practices within PICU settings are reviewed according to each TIC principle. Discussion about opportunities for further development of TIC programs to improve patient care and advance knowledge is also included.

Exploring the measurement of pediatric cognitive-communication disorders in traumatic brain injury research: A scoping review

OBJECTIVE

To synthesize information about the constructs measured, measurement instruments used, and the timing of assessment of cognitive-communication disorders (CCDs) in pediatric traumatic brain injury (TBI) research.

METHODS AND PROCEDURES

Scoping review conducted in alignment with Arksey and O'Malley's five-stage methodological framework and reported per the PRISMA extension for Scoping Reviews. Inclusion criteria: (a) cohort description, case-control, and treatment studies; (b) participants with TBI aged 5-18 years; (c) communication or psychosocial outcomes; and (d) English full-text journal articles. The first author reviewed all titles, abstracts, and full-text articles; 10% were independently reviewed.

OUTCOMES AND RESULTS

Following screening, a total of 687 articles were included and 919 measurement instruments, measuring 2134 unique constructs, were extracted. The Child Behavior Checklist was the most used measurement instrument and 'Global Outcomes/Recovery' was the construct most frequently measured. The length of longitudinal monitoring ranged between ≤3 months and 16 years.

CONCLUSIONS AND IMPLICATIONS

We found considerable heterogeneity in the constructs measured, the measurement instruments used, and the timing of CCD assessment in pediatric TBI research. A consistent approach to measurement may support clinical decision-making and the efficient use of data beyond individual studies in systematic reviews and meta-analyses.

Examining the Relationship between Salivary Amylase Level, Head Trauma Severity and CT Scan Results in Patients with Isolated Mild Head Trauma

OBJECTIVE

To investigate the relationship between salivary amylase level and computed tomoraphy (CT scan) findings in patients with isolated mild traumatic Brain Injury (mTBI) referred to the emergency department of Shahid Hasheminejad Hospital.

METHODS

Patients with isolated mTBI and indication for brain CT scan who referred to the trauma center of Shahid Hasheminejad Hospital, Mashhad, Iran in 2019 were included in a cross-sectional study. In the initial examination, the patient's level of consciousness was measured using the Glasgow Coma Scale (GCS), and saliva samples were taken at the emergency department to determine the level of salivary amylase. A brain CT scan was performed for all patients. Age, gender, cause of trauma, the trauma severity and CT scan results were recorded. Statistical analysis was performed on the data.

RESULTS

One-hundred fifty patients were enrolled in this study (men=101, women=49). The trauma causes were included accidents (n=88; 58%), falls (n=37; 25%) and miscellaneous factors (e.g., quarrels; n=25; 17%). GCS was 15 in 142 patients and 14 in the rest. In all patients, the trauma severity was mild to high risk (Minor). CT scan results unfolded pathology in 10 cases (7%), while the residues (93%) had normal CT scans with no pathological evidence. Salivary amylase level in the patients' saliva samples was between 137 to 8000 units per liter. Using the t-test to evaluate the relationship between salivary amylase levels and CT scan results uncovered a significant relationship. Spearman correlation revealed no significant relationship between the amylase and GCS levels.

CONCLUSION

Data statistical analysis from 150 patients with isolated head trauma manifested that salivary amylase levels were significantly higher in the patients with pathological findings on CT scans. However, no significant relationship was found between salivary amylase level and age, gender, cause of trauma, and level of consciousness.

Glucocorticoid Receptor Overexpression in the Dorsal Hippocampus Attenuates Spatial Learning and Synaptic Plasticity Deficits Following Pediatric Traumatic Brain Injury

Traumatic brain injury (TBI) in children younger than 4 years old leads to long-term deficits in cognitive and learning abilities that can persist or even worsen as children age into adolescence. In this study, the role of glucocorticoid receptor (GR) function in the dorsal hippocampus (DH) in hippocampal-dependent cognitive function and synaptic plasticity were assessed following injury to the 11-day-old rat. Brain injury produced significant impairments in spatial learning and memory in the Morris water maze in male and female rats at 1-month post-injury (adolescence) which was accompanied by impairments in induction and maintenance of long-term potentiation (LTP) in the CA1 region of the DH. Brain injury resulted in a significant decrease in the expression of the glucocorticoid-inducible gene, serum- and glucocorticoid-kinase 1 (sgk1), suggestive of an impairment in GR transcriptional activity within the hippocampus. Lentiviral transfection of the human GR (hGR) in the DH improved spatial learning and memory in the Morris water maze and attenuated LTP deficits following TBI. GR overexpression in the DH was also associated with a significant increase in the mRNA expression levels of sgk1, and the glutamate receptor subunits GluA1 and GluA2 within the hippocampus. Overall, these findings support an important role of dorsal hippocampal GR function in learning and memory deficits following pediatric TBI and suggest that these effects may be related to the regulation of glutamate receptor subunit expression in the DH.

Salivary Biomarkers as Indicators of TBI Diagnosis and Prognosis: A Systematic Review

BACKGROUND AND OBJECTIVE

Traumatic brain injuries are physical injuries to the head that result in disruptions to normal brain function. Diagnostic tools such as computed tomography scans have commonly been used to detect traumatic brain injuries but are costly and not ubiquitously available. Recent research on diagnostic alternatives has focused on using salivary biomarkers, but there is no consensus on the utility of these methods.  The objective of this manuscript is to address the gap in the literature pertaining to the effectiveness of salivary biomarkers for TBI diagnosis and prognosis.

METHODS

A systematic review was conducted between November 2020 and October 2021 using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Six databases were searched using the terms "traumatic brain injury," "TBI," "saliva," and "biomarkers." Literature published prior to 2010 was excluded, and two authors reviewed each full-text article to ensure its relevance.

RESULTS

A total of 18 articles were included in this review, with nine articles on salivary microRNA, three on salivary hormones, three on salivary extracellular vesicles, and three on salivary proteins.

CONCLUSIONS

Studies reported changes in salivary biomarkers after traumatic brain injuries and indicated a possible link between salivary biomarker expression and traumatic brain injury severity. However, it is unclear the degree to which salivary biomarkers accurately predict traumatic brain injury diagnosis and prognosis; some studies reported significant associations while others reported weaker associations. More research into the robustness of salivary biomarkers is needed to fully elucidate their utility for the traumatic brain injury population.

Pathophysiology of Pediatric Traumatic Brain Injury

The national incidence of traumatic brain injury (TBI) exceeds that of any other disease in the pediatric population. In the United States the Centers for Disease Control and Prevention (CDC) reports 697,347 annual TBIs in children ages 0–19 that result in emergency room visits, hospitalization or deaths. There is a bimodal distribution within the pediatric TBI population, with peaks in both toddlers and adolescents. Preclinical TBI research provides evidence for age differences in acute pathophysiology that likely contribute to long-term outcome differences between age groups. This review will examine the timecourse of acute pathophysiological processes during cerebral maturation, including calcium accumulation, glucose metabolism and cerebral blood flow. Consequences of pediatric TBI are complicated by the ongoing maturational changes allowing for substantial plasticity and windows of vulnerabilities. This review will also examine the timecourse of later outcomes after mild, repeat mild and more severe TBI to establish developmental windows of susceptibility and altered maturational trajectories. Research progress for pediatric TBI is critically important to reveal age-associated mechanisms and to determine knowledge gaps for future studies.

The differential calibration of the HPA axis as a function of trauma versus adversity: A systematic review and p-curve meta-analyses

Although there is an abundance of evidence linking the function of the hypothalamic-pituitary-adrenal (HPA) axis to adverse early-life experiences, the precise nature of the association remains unclear. Some evidence suggests early-life adversity leads to cortisol hyper-reactivity, while other evidence suggests adversity leads to cortisol hypo-reactivity. Here, we distinguish between trauma and adversity, and use p-curves to interrogate the conflicting literature. In Study 1, trauma was operationalized according to DSM-5 criteria; the p-curve analysis included 68 articles and revealed that the literature reporting associations between trauma and blunted cortisol reactivity contains evidential value. Study 2 examined the relationship between adversity and cortisol reactivity. Thirty articles were included in the analysis, and p-curve demonstrated that adversity is related to heightened cortisol reactivity. These results support an inverted U-shaped function relating severity of adversity and cortisol reactivity, and underscore the importance of distinguishing between "trauma" and "adversity".

Stem Cell Therapy for Pediatric Traumatic Brain Injury

There has been a growing interest in the potential of stem cell transplantation as therapy for pediatric brain injuries. Studies in pre-clinical models of pediatric brain injury such as Traumatic Brain Injury (TBI) and neonatal hypoxia-ischemia (HI) have contributed to our understanding of the roles of endogenous stem cells in repair processes and functional recovery following brain injury, and the effects of exogenous stem cell transplantation on recovery from brain injury. Although only a handful of studies have evaluated these effects in models of pediatric TBI, many studies have evaluated stem cell transplantation therapy in models of neonatal HI which has a considerable overlap of injury pathology with pediatric TBI. In this review, we have summarized data on the effects of stem cell treatments on histopathological and functional outcomes in models of pediatric brain injury. Importantly, we have outlined evidence supporting the potential for stem cell transplantation to mitigate pathology of pediatric TBI including neuroinflammation and white matter injury, and challenges that will need to be addressed to incorporate these therapies to improve functional outcomes following pediatric TBI.

Evidence Limitations in Determining Sexually Dimorphic Outcomes in Pediatric Post-Traumatic Hypopituitarism and the Path Forward

Neuroendocrine dysfunction can occur as a consequence of traumatic brain injury (TBI), and disruptions to the hypothalamic-pituitary axis can be especially consequential to children. The purpose of our review is to summarize current literature relevant to studying sex differences in pediatric post-traumatic hypopituitarism (PTHP). Our understanding of incidence, time course, and impact is constrained by studies which are primarily small, are disadvantaged by significant methodological challenges, and have investigated limited temporal windows. Because hormonal changes underpin the basis of growth and development, the timing of injury and PTHP testing with respect to pubertal stage gains particular importance. Reciprocal relationships among neuroendocrine function, TBI, adverse childhood events, and physiological, psychological and cognitive sequelae are underconsidered influencers of sexually dimorphic outcomes. In light of the tremendous heterogeneity in this body of literature, we conclude with the common path upon which we must collectively arrive in order to make progress in understanding PTHP.

Sleep disturbances and internalizing behavior problems following pediatric traumatic injury

OBJECTIVE

This prospective longitudinal study investigated sleep disturbance (SD) and internalizing problems after traumatic injury, including traumatic brain injury (TBI) or extracranial/bodily injury (EI) in children and adolescents, relative to typically developing (TD) children. We also examined longitudinal relations between SD and internalizing problems postinjury.

METHOD

Participants (N = 87) ages 8-15 included youth with TBI, EI, and TD children. Injury groups were recruited from a Level 1 trauma center after sustaining vehicle-related injuries. Parent-reported SD and internalizing problems were assessed at preinjury/baseline, and 6 and 12 months postinjury. Linear mixed models evaluated the relation of group and time of assessment on outcomes.

RESULTS

Controlling for age, the combined traumatic injury group experienced significantly higher postinjury levels of SD (p = .042) and internalizing problems (p = .024) than TD children; however, TBI and EI injury groups did not differ from each other. Injury severity was positively associated with SD in the EI group only, but in both groups SD was associated with additional postinjury sequelae, including fatigue and externalizing behavior problems. Internalizing problems predicted subsequent development of SD but not vice versa. The relation between injury and SD 1 year later was consistent with mediation by internalizing problems at 6 months postinjury.

CONCLUSIONS

Children with both types of traumatic injury demonstrated higher SD and internalizing problems than healthy children. Internalizing problems occurring either prior to or following pediatric injury may be a risk factor for posttraumatic SD. Consequently, internalizing problems may be a promising target of intervention to improve both SD and related adjustment concerns. (PsycINFO Database Record

Lifelong consequences of brain injuries during development: From risk to resilience

Traumatic brain injuries in children represent a major public health issue and even relatively mild injuries can have lifelong consequences. However, the outcomes from these injuries are highly heterogeneous, with most individuals recovering fully, but a substantial subset experiencing prolonged or permanent disabilities across a number of domains. Moreover, brain injuries predispose individuals to other kinds of neuropsychiatric and somatic illnesses. Critically, the severity of the injury only partially predicts subsequent outcomes, thus other factors must be involved. In this review, we discuss the psychological, social, neuroendocrine, and autonomic processes that are disrupted following traumatic brain injury during development, and consider the mechanisms the mediate risk or resilience after traumatic brain injury in this vulnerable population.

Adrenal function following acute discontinuation of glucocorticoids in children with acute lymphocytic leukemia: A prospective study

Background: Children with acute lymphocytic leukemia (ALL) are enrolled in advanced treatment protocols involving high doses of glucocorticoids (GCs). Current protocols do not advocate tapering of GCs doses postinduction phase. Prolonged administration of supra-physiologic doses of GCs can induce transient suppression of the hypothalamic pituitary adrenal axis (HPA). Timely recognition of adrenal insufficiency is important in order to ensure that children at risk receive the necessary treatment and follow-up including stress coverage during illness and surgical procedures. Methods: 21 newly diagnosed patients with ALL aged 3-10 years old were prospectively enrolled in the study over a 2-year period. All enrolled patients received high doses of GCs as part of a chemotherapy treatment protocol. The HPA axis was assessed prior to the induction phase of chemotherapy and 1-2 weeks after un-tapered discontinuation of GCs. Results: All children had normal HPA axis at baseline. Postinduction 1 mcg ACTH stimulation test result was normal (cortisol > 500 nmol/L) in 75% of children and partially responsive in 25% (cortisol 300-500 nmol/L). None of the participants demonstrated clinically significant adrenal insufficiency following abrupt cessation of GCs. Conclusion: All children in our cohort had either normal or subnormal cortisol response during a low dose ACTH stimulation test 1 to 2 weeks following abrupt discontinuation of GCs, suggesting that any inhibition of the HPA axis is of short duration. We suggest that future studies investigate the timing of adrenal function recovery following GC discontinuation as well as whether tapering of the GC should be recommended.

A Tilted Axis: Maladaptive Inflammation and HPA Axis Dysfunction Contribute to Consequences of TBI

Each year approximately 1.7 million people sustain a traumatic brain injury (TBI) in the US alone. Associated with these head injuries is a high prevalence of neuropsychiatric symptoms including irritability, depression, and anxiety. Neuroinflammation, due in part to microglia, can worsen or even cause neuropsychiatric disorders after TBI. For example, mounting evidence demonstrates that microglia become “primed” or hyper-reactive with an exaggerated pro-inflammatory phenotype following multiple immune challenges. Microglial priming occurs after experimental TBI and correlates with the emergence of depressive-like behavior as well as cognitive dysfunction. Critically, immune challenges are various and include illness, aging, and stress. The collective influence of any combination of these immune challenges shapes the neuroimmune environment and the response to TBI. For example, stress reliably induces inflammation and could therefore be a gateway to altered neuropathology and behavioral decline following TBI. Given the increasing incidence of stress-related psychiatric disorders after TBI, the degree in which stress affects outcome is of particular interest. This review aims to highlight the role of the hypothalamic-pituitary-adrenal (HPA) axis as a key mediator of stress-immune pathway communication following TBI. We will first describe maladaptive neuroinflammation after TBI and how stress contributes to inflammation through both anti- and pro-inflammatory mechanisms. Clinical and experimental data describing HPA-axis dysfunction and consequences of altered stress responses after TBI will be discussed. Lastly, we will review common stress models used after TBI that could better elucidate the relationship between HPA axis dysfunction and maladaptive inflammation following TBI. Together, the studies described in this review suggest that HPA axis dysfunction after brain injury is prevalent and contributes to the dynamic nature of the neuroinflammatory response to brain injury. Experimental stressors that directly engage the HPA axis represent important areas for future research to better define the role of stress-immune pathways in mediating outcome following TBI.

Post-Traumatic Stress Symptoms after Pediatric Injury: Relation to Pre-Frontal Limbic Circuitry

Pre-frontal limbic circuitry is vulnerable to effects of stress and injury. We examined microstructure of pre-frontal limbic circuitry after traumatic brain injury (TBI) or extracranial injury (EI) and its relation to post-traumatic stress symptoms (PTSS). Participants aged 8 to 15 years who sustained mild to severe TBI (n = 53) or EI (n = 26) in motor vehicle incidents were compared with healthy children (n = 38) in a prospective longitudinal study. At the seven-week follow-up, diffusion tensor imaging was obtained in all groups; injured children completed PTSS ratings using a validated scale. Using probabilistic diffusion tensor tractography, pathways were seeded from bilateral amygdalae and hippocampi to estimate the trajectory of white matter connecting them to each other and to targeted pre-frontal cortical (PFC) regions. Microstructure was estimated using fractional anisotropy (FA) in white matter and mean diffusivity (MD) in gray matter. Pre-frontal limbic microstructure was similar across groups, except for reduced FA in the right hippocampus to orbital PFC pathway in the injured versus healthy group. We examined microstructure of components of pre-frontal limbic circuitry with concurrently obtained PTSS cluster scores in the injured children. Neither microstructure nor PTSS scores differed significantly in the TBI and EI groups. Across PTSS factors, specific symptom clusters were related positively to higher FA and MD. Higher hyperarousal, avoidance, and re-experiencing symptoms were associated with higher FA in amygdala to pre-frontal and hippocampus to amygdala pathways. Higher hippocampal MD had a central role in hyperarousal and emotional numbing symptoms. Age moderated the relation of white and gray matter microstructure with hyperarousal scores. Our findings are consistent with models of traumatic stress that implicate disrupted top-down PFC and hippocampal moderation of overreactive subcortical threat arousal systems. Alterations in limbic pre-frontal circuitry and PTSS place children with either brain or body injuries at elevated risk for both current and future psychological health problems.

Graph theory analysis of DTI tractography in children with traumatic injury

OBJECTIVE

To evaluate brai structural connectivity in children with traumatic injury (TI) following a motor vehicle accident using graph theory analysis of DTI tractography data.

METHODS

DTI scans were acquired on a 3 T Philips scanner from children aged 8-15 years approximately 2 months post-injury. The TI group consisted of children with traumatic brain injury (TBI; n = 44) or extracranial injury (EI; n = 23). Healthy control children (n = 36) were included as an age-matched comparison group. A graph theory approach was applied to DTI tractography data to investigate injury-related differences in connectivity network characteristics. Group differences in structural connectivity evidenced by graph metrics including efficiency, strength, and modularity were assessed using the multi-threshold permutation correction (MTPC) and network-based statistic (NBS) methods.

RESULTS

At the global network level, global efficiency and mean network strength were lower, and modularity was higher, in the TBI than in the control group. Similarly, strength was lower and modularity higher when comparing the EI to the control group. At the vertex level, nodal efficiency, vertex strength, and average shortest path length were different between all pairwise comparisons of the three groups. Both nodal efficiency and vertex strength were higher in the control than in the EI group, which in turn were higher than in the TBI group. The opposite between-group relationships were seen with path length. These between-group differences were distributed throughout the brain, in both hemispheres. NBS analysis resulted in a cluster of 22 regions and 21 edges with significantly lower connectivity in the TBI group compared to controls. This cluster predominantly involves the frontal lobe and subcortical gray matter structures in both hemispheres.

CONCLUSIONS

Graph theory analysis of DTI tractography showed diffuse differences in structural brain network connectivity in children 2 months post-TI. Network differences were consistent with lower network integration and higher segregation in the injured groups compared to healthy controls. Findings suggest that inclusion of trauma-exposed comparison groups in studies of TBI outcome is warranted to better characterize the indirect effect of stress on brain networks.

Persistent Postconcussion Symptoms After Injury

: media-1vid110.1542/5828371885001PEDS-VA_2018-0939Video Abstract OBJECTIVES: We examined whether preinjury, demographic, and family factors influenced vulnerability to postconcussion symptoms (PCSs) persisting the year after mild traumatic brain injury (mTBI).

METHODS

Children with mTBI (n = 119), complicated mild traumatic brain injury (cmTBI) (n = 110), or orthopedic injury (OI) (n = 118), recruited from emergency departments, were enrolled in a prospective, longitudinal cohort study. Caregivers completed retrospective surveys to characterize preinjury demographic, child, and family characteristics. PCSs were assessed using a validated rating scale. With multivariable general linear models adjusted for preinjury symptoms, we examined predictors of PCSs 3, 6, and 12 months after injury in children ages 4 to 8, 9 to 12, and 13 to 15 years at injury. With logistic regression, we examined predictors of chronic PCSs 1 year after traumatic brain injury.

RESULTS

Postinjury somatic, emotional, cognitive, and fatigue PCSs were similar in the mTBI and cmTBI groups and significantly elevated compared with the OI group. PCS trajectories varied with age and sex. Adolescents had elevated PCSs that improved; young children had lower initial symptoms and less change. Despite similar preinjury PCSs, girls had elevated symptoms across all time points compared with boys. PCS vulnerability factors included female sex, adolescence, preinjury mood problems, lower income, and family discord. Social capital was a protective factor. PCSs persisted in 25% to 31% of the traumatic brain injury group and 18% of the OI group at 1 year postinjury. The odds of chronic PCSs were almost twice as high in girls as in boys and were >4 times higher in young children with cmTBI than in those with mTBI.

CONCLUSIONS

A significant minority of children with mTBI and OI have PCSs that persisted 1 year after injury.

The Role of the Lateral Hypothalamus in Violent Intraspecific Aggression-The Glucocorticoid Deficit Hypothesis

This review argues for a central role of the lateral hypothalamus in those deviant forms of aggression, which result from chronic glucocorticoid deficiency. Currently, this nucleus is considered a key region of the mechanisms that control predatory aggression. However, recent findings demonstrate that it is strongly activated by aggression in subjects with a chronically downregulated hypothalamus-pituitary-adrenocortical (HPA) axis; moreover, this activation is causally involved in the emergence of violent aggression. The review has two parts. In the first part, we review human findings demonstrating that under certain conditions, strong stressors downregulate the HPA-axis on the long run, and that the resulting glucocorticoid deficiency is associated with violent aggression including aggressive delinquency and aggression-related psychopathologies. The second part addresses neural mechanisms in animals. We show that the experimental downregulation of HPA-axis function elicits violent aggression in rodents, and the activation of the brain circuitry that originally subserves predatory aggression accompanies this change. The lateral hypothalamus is not only an integral part of this circuitry, but can elicit deviant and violent forms of aggression. Finally, we formulate a hypothesis on the pathway that connects unfavorable social conditions to violent aggression via the neural circuitry that includes the lateral hypothalamus.